Add to ORKGThis dissertation investigates the implementation of S-parameter based network techniques for the analysis of multiconductor, high speed VLSI integrated circuit and packaging interconnects. The S-parameters can be derived from three categories of input parameters: (1) lossy quasi-static R,L,C and G, (2) lossy frequency dependent (dispersive) R,L,C,G and (3) the propagation constants, Γ, the characteristic impedance, Z(c) and the conductor eigencurrents, I, derived from full wave analysis. The S-parameter network techniques developed allow for: the analysis of periodic waveform excitation, the incorporation of externally measured or calculated scattering parameter data and large system analysis through macro decomposition. The inclusion of n...
Diff erential signaling is an important technique for voltage high-speed digital system to avoid ele...
Due to inherent resonance effects and frequency-variant dielectric properties, it is very difficult ...
1. Discussion of s parameters and their applicability to high frequency design. 2. Measurement of s ...
Scattering parameters (S-parameters) are widely used in industry for characterizing the transmission...
The problem of accurate and efficient calculation of transient signal waveforms microelectronic circ...
A new method is presented for the analysis of interconnections on high-speed LSI/VLSI chips. Interco...
Inherent resonance effects during measurements make it difficult to determine experimental transmiss...
Transmission lines of various degrees of dispersion are often designed and fabricated for use in hig...
A new method based on a piecewise decomposition technique is presented for the analysis of interconn...
Differential circuits are becoming increasingly important in radio frequency (RF) and microwave appl...
Differential circuits are becoming increasingly important in radio frequency (RF) and microwave appl...
Differential circuits are becoming increasingly important in radio frequency (RF) and microwave appl...
Distributed circuit parameters parameterize the transmission and reflection off a given transmission...
Distributed circuit parameters parameterize the transmission and reflection off a given transmission...
Distributed circuit parameters parameterize the transmission and reflection off a given transmission...
Diff erential signaling is an important technique for voltage high-speed digital system to avoid ele...
Due to inherent resonance effects and frequency-variant dielectric properties, it is very difficult ...
1. Discussion of s parameters and their applicability to high frequency design. 2. Measurement of s ...
Scattering parameters (S-parameters) are widely used in industry for characterizing the transmission...
The problem of accurate and efficient calculation of transient signal waveforms microelectronic circ...
A new method is presented for the analysis of interconnections on high-speed LSI/VLSI chips. Interco...
Inherent resonance effects during measurements make it difficult to determine experimental transmiss...
Transmission lines of various degrees of dispersion are often designed and fabricated for use in hig...
A new method based on a piecewise decomposition technique is presented for the analysis of interconn...
Differential circuits are becoming increasingly important in radio frequency (RF) and microwave appl...
Differential circuits are becoming increasingly important in radio frequency (RF) and microwave appl...
Differential circuits are becoming increasingly important in radio frequency (RF) and microwave appl...
Distributed circuit parameters parameterize the transmission and reflection off a given transmission...
Distributed circuit parameters parameterize the transmission and reflection off a given transmission...
Distributed circuit parameters parameterize the transmission and reflection off a given transmission...
Diff erential signaling is an important technique for voltage high-speed digital system to avoid ele...
Due to inherent resonance effects and frequency-variant dielectric properties, it is very difficult ...
1. Discussion of s parameters and their applicability to high frequency design. 2. Measurement of s ...